JP2679581B2 - Switching power supply circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching power supply circuit, and more particularly to a non-control system output voltage stabilizing circuit in cross regulation.

[0002]

2. Description of the Related Art FIG. 3 is a circuit diagram of an example of a conventional switching power supply.

This switching power supply includes a DC power supply 1, a transformer 4, a main switch for switching a current flowing through the transformer 4, a control circuit 2 for controlling the switching, and a first secondary of the transformer 4. A non-control system output circuit including a winding, a diode 5, and an output capacitor 7, a control system output circuit including a second secondary winding of the transformer 4, a diode 6, and an output capacitor 8, and an error detector 16. It comprises a pseudo load connection control section 17 and a feedback circuit for adjusting the deviation of the output voltage of the control system output circuit.

The feedback circuit includes resistors 10 and 11 for shunting the output voltage of the control system output circuit, a DC power supply 13 for holding a reference voltage, and a resistor 11 for the control system output voltage.
Of the operational amplifier 14 whose potential is input to one terminal and reference voltage is input to the other terminal. If cross regulation occurs between the output voltages of the non-control system output circuit and the control system output circuit, the error detection unit 16 detects this and whether the pseudo load connection control unit 17 is the non-control system or the control system based on the detection. It was designed to reduce the cross regulation by connecting a pseudo load to the light load circuit.

As described above, conventionally, this type of switching power supply detects an error between the voltage difference between the two output systems and the reference voltage of the voltage difference, and the unbalance fluctuation of the load becomes large, resulting in the error. When a certain limit is exceeded, this is discriminated and a pseudo load is connected to the output on the light load side so as to balance the two outputs. This point is described in JP-A-63-194567.

[0006]

The conventional switching power supply described above detects the voltage difference between both outputs and the error between the voltage difference and the reference voltage in order to stabilize the output voltage of the non-control system. Since a pseudo load is connected to the output on the light load side to balance the outputs, there is a drawback in that efficiency is reduced.
An object of the present invention is to provide a switching power supply circuit that can balance outputs without connecting a pseudo load even if cross regulation occurs in which loads of two output systems become unbalanced.

[0007]

Means for Solving the Problems The switching power supply circuit of the present invention includes a DC power supply, a transformer connected in series to the direct current power supply, a switching element, a control circuit of the switching, the secondary of the transformer have a two output system of the control system and the non-control system connected to the winding, the output current of the control system output circuit
In a switching power supply circuit having a current detection circuit for detecting, the current detection circuit detects a current depending on the detected current.
A means for outputting the current detection signal of the corresponding level
Then, the voltage corresponding to the current value is detected by the current detection signal.
For generating voltage, corresponding voltage and control system output circuit
The voltage difference with the reference voltage is divided by a predetermined ratio and compared with the reference voltage.
Error amplification that outputs the adjusted voltage corresponding to the difference
Control voltage changing means including a controller, and inputting the adjustment voltage
Allows the control circuit to control the primary voltage of the transformer and
The fluctuation of the output of the control system output circuit is suppressed.

Further, the current detection circuit outputs a current detection signal of a level corresponding to the detected current, and the voltage control means compares the voltage of the control system output circuit with a reference voltage by the current detection signal and transforms the voltage. It is desirable to control the primary voltage of the controller to suppress the fluctuation of the output of the non-control system output circuit. Furthermore, the voltage control means includes a control voltage changing circuit and the control circuit, and the control voltage changing circuit is The control circuit includes a voltage variable device whose voltage changes according to the current detection signal, a reference voltage output means, and an error amplifier which outputs a difference between the reference voltage of the voltage variable device at a predetermined ratio. That controls the primary current of the transformer by the output of the voltage regulator, and the voltage regulator is connected to the output terminal of the control system output circuit in series with a resistor, and one terminal of the error amplifier is It said voltage variator comprising a portion of the serial resistor is connected in the divided state of the output voltage of the control system,
The present invention also includes a reference voltage output means connected to the other terminal.

[0009]

The output current of the control system output circuit increases because the primary voltage of the transformer increases due to the load condition generated on the non-control output circuit side, so the primary voltage must be decreased. When the output current of the control output circuit decreases,
The opposite is true. Therefore, it is possible to stabilize the relationship between the non-control system output current and the voltage by setting the feedback that lowers the voltage when the control system output current increases and increases the voltage when the control system output current decreases.

[0010]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a circuit diagram of an embodiment of the switching power supply circuit of the present invention.

This switching power supply includes a DC power supply 1 and
A transformer 4, a main switch 3 composed of a transistor for switching, a control system circuit 2 for controlling switching of the main switch 3, a non-control system output circuit 18,
It has a control system output circuit 19 and a control voltage changing circuit 15.

The non-control system output circuit 18 includes a first secondary winding of the transformer, a diode 5 connected in series with the first secondary winding, and
An output capacitor 7 connected in parallel to the output terminal is connected to a predetermined load. The control system output circuit 19 is
It comprises a second secondary winding of the transformer 4, a diode 6 connected in series with the second secondary winding, an output capacitor 8 connected in parallel to the output terminal, and a current detector 9. The current detector 9 is
The output current of the control system output circuit 19 is detected, and a signal of a level corresponding to the detected current is output.

The control voltage changing circuit 15 receives the output signal of the current detector 9 as an input and generates a voltage corresponding to the signal output by the current detector 9, and a voltage variable device 12 and an output terminal of the control system output circuit 19. A voltage consisting of a voltage variable device 12 and a resistor 11 connected in series with the voltage variable device 12, a DC power source 13 for outputting a reference voltage, and the output voltage of the control system output circuit. Is input to one terminal and the voltage of the DC power supply 13 is input to the other terminal, and the error amplifier 14 inputs the output to the control circuit 2.

Next, the operation of this embodiment will be described.

FIG. 2 is a diagram showing the relationship between the output current of the control system output circuit and the output voltage of the non-control system output circuit 18 of this embodiment.

In the present embodiment, when the output current of the control system output circuit 19 increases, the current detector 9 detects this increase in current, and the voltage of the voltage variable unit 12 of the control voltage changing circuit 15 is increased by the detection signal. To do. The difference between the voltage formed by the voltage variable device 12 and the resistor 11 and the reference voltage, which is increased by this voltage increase, is input from the error amplifier 14 to the control circuit 2 and the output voltage of the transformer 4 is controlled by the control of the control circuit 2. As a result, the output of the non-control system output circuit 18 also decreases.
On the contrary, when the current detector 9 detects the decrease of the output current of the control system output circuit 19, the voltage of the transformer 4 is increased by the input from the error amplifier 14, and the non-control system output circuit 18 outputs. The output voltage is also increased.

FIG. 2 shows a characteristic curve of this operation. The characteristic curve 21 is a value indicated by the output voltage of the non-control system output circuit by controlling the primary voltage of the transformer 4 so that the relationship between the output current and the voltage of the control system output circuit 19 becomes as shown by the curve 24. Is. Further, the characteristic curve 22 is a value indicated by the output voltage of the non-control system output circuit 18 when the relationship between the output current of the control system output circuit 19 and the voltage is set as the curve 23. Therefore, the characteristic curve 21 is set by setting the control of the control circuit 2 so that the current-voltage relationship of the control system circuit becomes as shown by the curve 24.
As can be seen from the above, the output voltage of the non-control system output circuit 18 can be stabilized within the range of V ₁ and V ₂ shown in FIG.

[0019]

As described above, according to the present invention, the transformer 4 controls the output voltage so that the secondary voltage becomes constant by monitoring the change in the output current of the control system output circuit. Compared to connecting a pseudo load, there is an effect that power consumption is reduced and an efficient switching power supply can be realized.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of an embodiment of a switching power supply circuit of the present invention.

FIG. 2 is a characteristic curve of the switching power supply circuit shown in FIG.

FIG. 3 is a circuit diagram of an example of a conventional switching power supply circuit.

[Explanation of symbols]

 1 DC Power Supply 2 Control Circuit 3 Main Switch 4 Transformer 5 Diode 6 Diode 7 Output Capacitor 8 Output Capacitor 9 Current Detector 10 Resistor 11 Resistor 12 Voltage Regulator 13 DC Power Supply 14 Error Amplifier 15 Control Voltage Change Circuit 16 Error Detection Section 17 Pseudo load connection control section 18 Non-control system output circuit 19 Control system output circuit 21 Output characteristic curve of non-control system output circuit 22 Output characteristic curve of non-control system output circuit 23 Output curve of control system output circuit 24 Control system output circuit Output curve

Claims (2)

(57) [Claims] 1. A DC power supply, a transformer connected in series to the DC power supply, a switching element, a switching control circuit, and a control system and a non-control system connected to a secondary winding of the transformer. have a two-output system, output current of the control system output circuit
In a switching power supply circuit having a current detection circuit for detecting a current , the current detection circuit takes a predetermined action according to the detected current.
Means for outputting a current detection signal of a level that enables a voltage corresponding to the current value to be generated by the current detection signal.
Generated voltage variable device, the corresponding voltage and the voltage of the control system output circuit.
The difference from the voltage is divided by a predetermined ratio and compared with the reference voltage.
Error amplifier that outputs an adjustment voltage corresponding to the difference
A control voltage changing means including, by the input of the regulated voltage, the control circuit of the transformer one
Switching power supply circuit controls the following voltage, suppressing the fluctuation in the output of the non-control system output circuit. 2. The voltage variable device is connected to an output terminal of a control system output circuit in series with the voltage dividing resistor, and one terminal of the error amplifier and the voltage variable device are connected to one terminal of the error amplifier. 2. The switching power supply circuit according to claim 1, wherein is connected in a state where the output voltage of the control system is divided, and a reference voltage output means is connected to the other terminal.